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Polarized α-synuclein trafficking and transcytosis across brain endothelial cells via Rab7-decorated carriers

Parvez Alam, Mikkel R. Holst, Line Lauritsen, Janni Nielsen, Simone S. E. Nielsen, Poul Henning Jensen, Jonathan R. Brewer, Daniel E. Otzen, Morten S. Nielsen

2022Fluids and Barriers of the CNS38 citationsDOIOpen Access PDF

Abstract

Parkinson's disease is mainly caused by aggregation of α-synuclein (α-syn) in the brain. Exchange of α-syn between the brain and peripheral tissues could have important pathophysiological and therapeutic implications, but the trafficking mechanism of α-syn across the blood brain-barrier (BBB) remains unclear. In this study, we therefore investigated uptake and transport mechanisms of α-syn monomers and oligomers across an in vitro BBB model system. Both α-syn monomers and oligomers were internalized by primary brain endothelial cells, with increased restriction of oligomeric over monomeric transport. To enlighten the trafficking route of monomeric α-syn in brain endothelial cells, we investigated co-localization of α-syn and intracellular markers of vesicular transport. Here, we observed the highest colocalization with clathrin, Rab7 and VPS35, suggesting a clathrin-dependent internalization, preferentially followed by a late endosome retromer-connected trafficking pathway. Furthermore, STED microscopy revealed monomeric α-syn trafficking via Rab7-decorated carriers. Knockdown of Caveolin1, VPS35, and Rab7 using siRNA did not affect monomeric α-syn uptake into endothelial cells. However, it significantly reduced transcytosis of monomeric α-syn in the luminal-abluminal direction, suggesting a polarized regulation of monomeric α-syn vesicular transport. Our findings suggest a direct role for Rab7 in polarized trafficking of monomeric α-syn across BBB endothelium, and the potential of Rab7 directed trafficking to constitute a target pathway for new therapeutic strategies against Parkinson's disease and related synucleinopathies.

Topics & Concepts

TranscytosisClathrinCell biologyColocalizationInternalizationEndosomeVesicular transport proteinBlood–brain barrierEndocytosisSynucleinopathiesAlpha-synucleinChemistryAxoplasmic transportBiologyIntracellularParkinson's diseaseNeuroscienceBiochemistryVesicleCellMedicineCentral nervous systemDiseaseMembranePathologyParkinson's Disease Mechanisms and TreatmentsCellular transport and secretionNeuroscience and Neuropharmacology Research
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